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Volume 34 Issue 5
Oct 2023
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Qiang Yu, Zhanli Ren, Rongxi Li, Chung Ling, Tao Ni, Wanshan Lei, Baojiang Wang, Xiaoli Wu, Xiaoli Qin, Xianghe Lei. Different Burial-Cooling History of Triassic Strata between the Western Weibei Uplift and the Northwestern Weihe Basin in Northwest China. Journal of Earth Science, 2023, 34(5): 1543-1555. doi: 10.1007/s12583-021-1432-0
Citation: Qiang Yu, Zhanli Ren, Rongxi Li, Chung Ling, Tao Ni, Wanshan Lei, Baojiang Wang, Xiaoli Wu, Xiaoli Qin, Xianghe Lei. Different Burial-Cooling History of Triassic Strata between the Western Weibei Uplift and the Northwestern Weihe Basin in Northwest China. Journal of Earth Science, 2023, 34(5): 1543-1555. doi: 10.1007/s12583-021-1432-0

Different Burial-Cooling History of Triassic Strata between the Western Weibei Uplift and the Northwestern Weihe Basin in Northwest China

doi: 10.1007/s12583-021-1432-0
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  • Analysis of tectonothermal history of the Yanchang Formation in the western Weibei Uplift and in the northwestern Weihe Basin can reconstruct the cooling history of the southwest most remained Upper Triassic source rock of the North China Plate. Apatite fission-track (AFT) and (U-Th-Sm)/He (AHe) analysis were used to recover the cooling and uplift history of the Upper Triassic here. Ten sandstones from the Middle–Upper Triassic strata yield AFT ages between 179.8 ± 7.4 and 127.6 ± 8.1 Ma. AHe ages of two sandstones have the value of 37.7 ± 2.3–131.1 ± 8.1 and 45.7 ± 2.8–83.5 ± 5.2 Ma. Time-temperature modeling results showed that tectonothermal history of the Yanchang Formation was initially different in time-space relationships but then became almost identical through time followed by different cooling rate. Modeling results of the Triassic strata in the Qianyang area and the Yaojiagou area revealed three different uplift-cooling stages commencing in the Late Jurassic at ~165 Ma and in Early Cretaceous at ~110 Ma, respectively, both followed by first similar cooling histories to the Early Miocene at ~20–23 Ma and then different since the Late Miocene. Uplift-cooling rate since the Late Miocene at ~8 Ma were different between the Western Weibei Uplift and the Northwestern Weihe Basin. The timing, cooling-uplift rates of the Yaojiagou area, which was mainly controlled by movements related to the Liupanshan Mountains, the Qinling Orogens and the Weibei Uplift, had the earliest onset of uplift-cooling for the Upper Triassic series compared to other regions within the Weibei Uplift. Cooling paths for the Upper Triassic series became uniform regionally in the Early Cretaceous marking a key time for the tectonothermal evolutionary history of Upper Triassic series in the southwestern North China Plate.

     

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    The authors declare that they have no conflict of interest.
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  • Chen, R. Y., Luo, X. R., Chen, Z. K., et al., 2006. Estimation of Denudation Thickness of Mesozoic Stata in the Ordos Basin and Its Geological Significance. Acta Geologica Sinica, 80(5): 685–693 (in Chinese with English Abstract)
    Cohen, K. M., Finney, S. C., Gibbard, P. L., et al., 2013. The ICS International Chronostratigraphic Chart. Episodes, 36(3): 199–204. https://doi.org/10.18814/epiiugs/2013/v36i3/002
    Dong, Y. P., Santosh, M., 2016. Tectonic Architecture and Multiple Orogeny of the Qinling Orogenic Belt, Central China. Gondwana Research, 29(1): 1–40. https://doi.org/10.1016/j.gr.2015.06.009
    Dow, W. G., 1977. Kerogen Studies and Geological Interpretations. Journal of Geochemical Exploration, 7: 79–99. https://doi.org/10.1016/0375-6742(77)90078-4
    Enkelmann, E., Ratschbacher, L., Jonckheere, R., et al., 2006. Cenozoic Exhumation and Deformation of Northeastern Tibet and the Qinling: Is Tibetan Lower Crustal Flow Diverging around the Sichuan Basin? Geological Society of America Bulletin, 118(5/6): 651–671. https://doi.org/10.1130/b25805.1
    Fan, A. P., Yang, R. C., van Loon, A. J., et al., 2018. Classification of Gravity-Flow Deposits and Their Significance for Unconventional Petroleum Exploration, with a Case Study from the Triassic Yanchang Formation (Southern Ordos Basin, China). Journal of Asian Earth Sciences, 161: 57–73. https://doi.org/10.1016/j.jseaes.2018.04.038
    Fan, S. H., Chen, S. E., Li, R. X., 2018. Combined Effects of the Subductions of the Pacific Plate and Indian Plate in Central China in the Cenozoic: Recorded from the Wei River Basin. Geological Journal, 53: 266–273. https://doi.org/10.1002/gj.3098
    Farley, K. A., 2000. Helium Diffusion from Apatite: General Behavior as Illustrated by Durango Fluorapatite. Journal of Geophysical Research: Solid Earth, 105(B2): 2903–2914. https://doi.org/10.1029/1999jb900348
    Farley, K. A., Wolf, R. A., Silver, L. T., 1996. The Effects of Long Alpha-Stopping Distances on (U-Th)/He Ages. Geochimica et Cosmochimica Acta, 60(21): 4223–4229. https://doi.org/10.1016/s0016-7037(96)00193-7
    Fu, J. H., Guo, Z. Q., Deng, X. Q., 2005. Sedimentary Facies of the Yanchang Formation of Upper Triassic and Petroleum Geological Implication in Southwestern Ordos Basin. Journal of Palaeogeography, 7(1): 34–44 (in Chinese with English Abstract)
    Gao, S. L., Ren, Z. L., 2006. Restoration of Eroded Thickness and Its Influence on Thermal Evolution of Upper Paleozoic Source Rocks in Ordos Basin. Oil & Gas Geology, 27(2): 180–186 (Chinese with English Abstract)
    Gleadow, A., Harrison, M., Kohn, B., et al., 2015. The Fish Canyon Tuff: A New Look at an Old Low-Temperature Thermochronology Standard. Earth and Planetary Science Letters, 424: 95–108. https://doi.org/10.1016/j.epsl.2015.05.003
    Hantschel, T., Kauerauf, A. I., 2009. Introduction to Basin Modeling. Fundamentals of Basin and Petroleum Systems Modeling. Springer Berlin Heidelberg, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-72318-9_1
    Hasebe, N., Barbarand, J., Jarvis, K., et al., 2004. Apatite Fission-Track Chronometry Using Laser Ablation ICP-MS. Chemical Geology, 207(3/4): 135–145. https://doi.org/10.1016/j.chemgeo.2004.01.007
    He, S., Wang, Q. L., 1989. The Eroded Thickness Reconstructed by Vitrinite Reflectance. Geological Review, 35(2): 119–126 (in Chinese with English Abstract)
    He, Z. X., 2010. Evolution and Oil and Gas in Ordos Basin. Petroleum Industry Press, Beijing (in Chinese with English Abstract)
    House, M. A., Farley, K. A., Stockli, D., 2000. Helium Chronometry of Apatite and Titanite Using Nd-YAG Laser Heating. Earth and Planetary Science Letters, 183(3/4): 365–368. https://doi.org/10.1016/S0012-821x(00)00286-7
    Hu, D., Shen, C. B., Liu, Z. Y., 2016. Basin Modeling and Thermochronological Constrains on the Burial and Denudational History of the Northeast Sichuan Basin. Geotectonica et Metallogenia, 40(6): 1145–1153
    Hu, S. B., Hao, J., Fu, M. X., et al., 2005. Cenozoic Denudation and Cooling History of Qinling-Dabie-Sulu Orogens: Apatite Fission Track Thermochronology Constraints. Acta Petrologica Sinica, 21(4): 1167–1173 (in Chinese with English Abstract)
    Hu, X. M., Garzanti, E., Wang, J. G., et al., 2016a. The Timing of India-Asia Collision Onset-Facts, Theories, Controversies. Earth-Science Reviews, 160: 264–299. https://doi.org/10.1016/j.earscirev.2016.07.014
    Hu, X. M., Wang, J. G., BouDagher-Fadel, M., et al., 2016b. New Insights into the Timing of the India–Asia Collision from the Paleogene Quxia and Jialazi Formations of the Xigaze Forearc Basin, South Tibet. Gondwana Research, 32: 76–92. https://doi.org/10.1016/j.gr.2015.02.007
    Ketcham, R. A., van der Beek, P., Barbarand, J., et al., 2018. Reproducibility of Thermal History Reconstruction from Apatite Fission-Track and (U-Th)/He Data. Geochemistry, Geophysics, Geosystems, 19(8): 2411–2436. https://doi.org/10.1029/2018gc007555
    Kohn, B., Chung, L., Gleadow, A., 2019. Fission-Track Analysis: Field Collection, Sample Preparation and Data Acquisition. Fission-Track Thermochronology and Its Application to Geology. Springer International Publishing, Cham. 25–48. https://doi.org/10.1007/978-3-319-89421-8_2
    Li, J. J., Fang, X. M., Pan, B. T., et al., 2001. Late Cenozoic Intensive Uplift of Qinghai-Xizang Plateau and Its Impacts on Environment in Surrounding Area. Quaternary Sciences, 21(5): 381–391 (in Chinese with English Abstract)
    Li, R. X., Duan, L. Z., Chen, B. Y., 2012. Albitization and Hydrothermal Diagenesis of Yanchang Oil Sandstone Reservoir, Ordos Basin. Acta Petrologicaet Mineralogica, 31(2): 173–180 (in Chinese with English Abstract)
    Li, S. Z., Suo, Y. H., Li, X. Y., et al., 2019. Mesozoic Tectono-Magmatic Response in the East Asian Ocean-Continent Connection Zone to Subduction of the Paleo-Pacific Plate. Earth-Science Reviews, 192: 91–137. https://doi.org/10.1016/j.earscirev.2019.03.003
    Li, G. W., Kohn, B., Sandiford, M., et al., 2016. Synorogenic Morphotectonic Evolution of the Gangdese Batholith, South Tibet: Insights from Low-Temperature Thermochronology. Geochemistry, Geophysics, Geosystems, 17(1): 101–112. https://doi.org/10.1002/2015gc006047
    Li, G. W., Kohn, B., Sandiford, M., et al., 2015. Constraining the Age of Liuqu Conglomerate, Southern Tibet: Implications for Evolution of the India-Asia Collision Zone. Earth and Planetary Science Letters, 426: 259–266 (in Chinese with English Abstract)
    Lin, S. H., Yuan, X. J., Tao, S. Z., et al., 2013. Geochemical Characteristics of the Source Rocks in Mesozoic Yanchang Formation, Central Ordos Basin. Journal of Earth Science, 24(5): 804–814. https://doi.org/10.1007/s12583-013-0379-1
    Liu, C. Y., Zhao, H. G., Gui, X. J., et al., 2006. Space-Time Coordinate of the Evolution and Reformation and Mineralization Response in Ordos Basin. Acta Geologica Sinica, 80(5): 617–638 (in Chinese with English Abstract)
    Liu, J. H., Zhang, P. Z., Zheng, D. W., et al., 2010. The Cooling History of Cenozoic Exhumation and Uplift of the Taibai Mountain, Qinling, China: Evidence from the Apatite Fission Track (AFT) Analysis. Chinese Journal of Geophysics, 53(10): 2405–2414 (in Chinese with English Abstract)
    Lü, M. S., Chen, K. Y., Xue, L. Q., et al., 2010. High-Resolution Transgressive-Regressive Sequence Stratigraphy of Chang 8 Member of Yanchang Formation in Southwestern Ordos Basin, Northern China. Journal of Earth Science, 21(4): 423–438. https://doi.org/10.1007/s12583-010-0105-1
    McDowell, F. W., McIntosh, W. C., Farley, K. A., 2005. A Precise 40Ar-39Ar Reference Age for the Durango Apatite (U–Th)/He and Fission-Track Dating Standard. Chemical Geology, 214(3/4): 249–263. https://doi.org/10.1016/j.chemgeo.2004.10.002
    Najman, Y., Appel, E., Boudagher-Fadel, M., et al., 2010. Timing of India-Asia Collision: Geological, Biostratigraphic, and Palaeomagnetic Constraints. Journal of Geophysical Research, 115(B12): B12416. https://doi.org/10.1029/2010jb007673
    Qi, K., Ren, Z. L., Cui, J. P., et al., 2017. The Meso-Cenozoic Tectonic Thermal Evolution of the Qishan-Linyou Areas in Weibei Uplift of Ordos Basin and Its Response in Geology: Evidence from fission-track analysis. Acta Geologica Sinica, 91(1): 151–162 (in Chinese with English Abstract)
    Ren, Z. L., Cui, J. P., Li, J. B., et al., 2014. Tectonic-Thermal History Reconstruction of Ordovician in the Weibei Uplift of Ordos Basin. Acta Geologica Sinica, 88(11): 2044–2056 (in Chinese with English Abstract)
    Ren, Z. L., Cui, J. P., Guo, K., et al., 2015a. Fission-Track Analysis of Uplift Times and Processes of the Weibei Uplift in the Ordos Basin. Chinese Science Bulletin, 60(14): 1298–1309 (in Chinese with English Abstract)
    Ren, Z. L., Cui, J. P., Liu, C. Y., et al., 2015b. Apatite Fission Track Evidence of Uplift Cooling in the Qiangtang Basin and Constraints on the Tibetan Plateau Uplift. Acta Geologica Sinica-English Edition, 89(2): 467–484. https://doi.org/10.1111/1755-6724.12441
    Ren, Z. L., Yu, Q., Cui, J. P., 2017. Thermal History and Its Controls on Oil and Gas of the Ordos Basin. Earth Science Frontiers, 24(3): 137–148 (in Chinese with English Abstract)
    Ren, Z. L., Zhang, S., Gao, S. L., et al., 2007. Tectonic Thermal History and Its Significance on the Formation of Oil and Gas Accumulation and Mineral Deposit in Ordos Basin. Science in China Series D: Earth Sciences, 50(2): 27–38. https://doi.org/10.1007/s11430-007-6022-1
    Shi, W., Dong, S. W., Hu, J. M., 2020. Neotectonics around the Ordos Block, North China: A Review and New Insights. Earth-Science Reviews, 200: 102969. https://doi.org/10.1016/j.earscirev.2019.102969
    Shi, W., Zhang, Q. S., Ma, Y. S., et al., 2006. Formation and Modification History of the Liupanshan Basin on the Southwestern Margin of the Ordos Block and Tectonic Stress Field Evolution. Geology in China, 33(5): 1066–1074 (in Chinese with English Abstract)
    Song, Y. G., Fang, X. M., Li, J. J., et al., 2001. The Late Cenozoic Uplift of the Liupan Shan, China. Science in China Series D: Earth Sciences, 44(1): 176–184. https://doi.org/10.1007/bf02911985
    Sun, Y. B., Ma, L., Bloemendal, J., et al., 2015. Miocene Climate Change on the Chinese Loess Plateau: Possible Links to the Growth of the Northern Tibetan Plateau and Global Cooling. Geochemistry, Geophysics, Geosystems, 16(7): 2097–2108. https://doi.org/10.1002/2015gc005750
    Teng, Z. H., Wang, X. H., 1996. Qinling Orogenic Belt Uplifting and Regional Environmental Effect in Cenozoic. Geology of Shaanxi, 14(2): 33–41 (in Chinese with English Abstract)
    Tian, Y. T., Kohn, B. P., Hu, S. B., et al., 2014. Postorogenic Rigid Behavior of the Eastern Songpan-Ganze Terrane: Insights from Low-Temperature Thermochronology and Implications for Intracontinental Deformation in Central Asia. Geochemistry, Geophysics, Geosystems, 15(2): 453–474. https://doi.org/10.1002/2013gc004951
    Vermeesch, P., 2009. RadialPlotter: A Java Application for Fission Track, Luminescence and Other Radial Plots. Radiation Measurements, 44(4): 409–410. https://doi.org/10.1016/j.radmeas.2009.05.003
    Wagner, G. A., van Den Haute, P., 1992. Fission-Track Dating Method. Fission-Track Dating. Springer Netherlands, Dordrecht. https://doi.org/10.1007/978-94-011-2478-2_3
    Wang, J. Q., Liu, C. Y., Yan, J. P., 2010. Development Time and Evolution Characteristics of Weibei Uplift in the South of Ordos Basin. Journal of Lanzhou University (Natural Science), 46(4): 22–29 (in Chinese with English Abstract)
    Wang, L. Z., Wang, L. Y., Peng, P. A., et al., 2018. A Thermal Event in the Ordos Basin: Insights from Illite 40Ar-39Ar Dating with Regression Analysis. Journal of Earth Science, 29(3): 629–638. https://doi.org/10.1007/s12583-017-0903-7
    Wang, Z., Gong, Y. M., 2023. Composition and Construction of High- and Low-Energy Ooid Shoals and Their Relationships with Environmental Changes: A Case Study from the Cambrian Zhangxia Formation in the Ordos Basin, North China. Journal of Earth Science, 34(1): 156–172. https://doi.org/10.1007/s12583-020-1097-0
    Wu, K., Dong, Y. P., Duan, J. X., et al., 2020. Cenozoic Uplift of the Central Yunnan Fragment, Southwestern China, Revealed by Apatite (U-Th)/He Dating. Journal of Earth Science, 31(4): 735–742. https://doi.org/10.1007/s12583-020-1328-4
    Wu, Z. H., Wu, Z. H., Wan, J. L., 2003. Cenozoic Uplift and Denudation History of Huashan Mountain Evidence from Fission Track Thermochrology of Huashan Granite. Geological Science and Technology Information, 22(3): 27–32 (in Chinese with English Abstract)
    Xiao, H., Li, J. X., Han, W., 2013. The Tectonic Uplift Time and Evolution Characteristics of Weibei Uplift in the South Edge of Ordos Basin. Journal of Xi'an University of Science and Technology, 33(5): 576–593 (in Chinese with English Abstract)
    Yang, H., 2004. Deposition System and Oil Accumulation Research of Yanchang Formation in Triassic, Ordos Basin: [Dissertation]. Chengdu Univerisity of Technology, Chengdu (in Chinese with English Abstract)
    Yang, H., Liu, Z. L., Zhu, X. M., et al., 2013. Provenance and Depositional Systems of the Upper Triassic Yanchang Formation in the Southwestern Ordos Basin, China. Earth Science Frontiers, 20(2): 10–18 (in Chinese with English Abstract)
    Yang, J. J., 2002. Tectonic Evolution and Oil-Gas Distribution of Ordos Basin. Petroleum Industry Press, Beijing (in Chinese with English Abstract)
    Yang, M. H., Liu, C. Y., Zeng, P., et al., 2012. Prototypes of Late Triassic Sedimentary Basins of North China Craton (NCC) and Deformation Pattern of Its Early Destruction. Geological Review, 58(1): 3–20 (in Chinese with English Abstract)
    Yang, R. C., Jin, Z. J., Loon, A. J., 2017. Climatic and Tectonic Controls of Lacustrine Hyperpycnite Origination in the Late Triassic Ordos Basin, Central China. AAPG Bulletin, 101(1): 95–117 (in Chinese with English Abstract)
    Yang, R. S., Fang, X. M., Meng, Q. Q., et al., 2017. Paleomagnetic Constraints on the Middle Miocene–Early Pliocene Stratigraphy in the Xining Basin, NE Tibetan Plateau, and the Geologic Implications. Geochemistry, Geophysics, Geosystems, 18(11): 3741–3757. https://doi.org/10.1002/2017gc006945
    Yang, R. S., Yang, Y. B., Fang, X. M., et al., 2019. Late Miocene Intensified Tectonic Uplift and Climatic Aridification on the Northeastern Tibetan Plateau: Evidence from Clay Mineralogical and Geochemical Records in the Xining Basin. Geochemistry, Geophysics, Geosystems, 20(2): 829–851. https://doi.org/10.1029/2018gc007917
    Yao, J. L., Deng, X. Q., Zhao, Y. D., 2013. Characteristics of Tight Oil in Triassic Yanchang Formation, Ordos Basin. Petroleum Exploration and Development, 40(2): 150–158 (in Chinese with English Abstract)
    Yu, Q., 2009. The Thermal Evolution History of Ordos Basin Mesozoic and Relationship with Various Energy Mineral Deposit: [Dissertation]. Northwest University, Xi'an (in Chinese with English Abstract)
    Yu, Q., 2012. The Paleozoic Thermal Evolution History and Natural Gas Accumulation of the Central and Eastern Parts of Ordos Basin: [Dissertation]. Northwest University, Xi'an (in Chinese with English Abstract)
    Yu, Q., 2019. "Thermochronology Data of the Triassic Strata in the Western Weibei Uplift and the Northwestern Weihe Basin", Mendeley Data, V2. http://doi.org/10.17632/kk8wstzf3f.2
    Yu, Q. A., Ren, Z. L., Li, R. X., et al., 2017. Paleogeotemperature and Maturity Evolutionary History of the Source Rocks in the Ordos Basin. Geological Journal, 52: 97–118. https://doi.org/10.1002/gj.3069
    Yu, Q., Ren, Z. L., Li, R. X., et al., 2019. Meso-Cenozoic Tectonothermal History of Permian Strata, Southwestern Weibei Uplift: Insights from Thermochronology and Geothermometry. Acta Geologica Sinica, 93(6): 1647–1661. http://doi.org/10.1111/1755-6724.14367
    Yu, Q., Ren, Z. L., Zhu, Z. W., et al., 2018. Exhumation, Cooling and Erosion History of Triassic Oil Shale since Late Cretaceous, Binxian-Tongchuan Area of Ordos Basin. Earth Science, 43(6): 1839–1849 (in Chinese with English Abstract)
    Zattin, M., Wang, X. X., 2019. Exhumation of the Western Qinling Mountain Range and the Building of the Northeastern Margin of the Tibetan Plateau. Journal of Asian Earth Sciences, 177: 307–313. https://doi.org/10.1016/j.jseaes.2019.04.002
    Zhang, G. W., Meng, Q. P., Yu, Z. P., et al., 1996. Orogenic Process and Dynamic Characteristics of the Qinling Orogeny. Science in China (Series D), 26(3): 193–200 (in Chinese)
    Zhang, W. Z., Yang, H., Yang, Y. H., 2008. Petrology and Element Geochemistry and Development Environment of Yanchang Formation Chang-7 High Quality Source Rocks in Ordos Basin. Geochimica, 37(1): 59–64 (in Chinese with English Abstract)
    Zhang, Q. S., Liao, C. Z., Shi, W., 2006. Neotectonic Evolution of the Peripheral Zones of the Ordos Basin and Geodynamic Setting. Geological Journal of China Universities, 12: 285–297 (in Chinese with English Abstract)
    Zhao, C. Y., Liu, C. Y., 1999. The Formation, Evolution and Oil & Gas Accumulation in Huabei Craton Sedimentary Basin. Northwest University Press, Xi'an (in Chinese)
    Zhao, W. Z., Wang, X. M., Guo, Y. R., et al., 2006. Restoration and Tectonic Reworking of the Late Triassic Basin in Western Ordos Basin. Petroleum Exploration and Development, 33(1): 11–18 (in Chinese with English Abstract)
    Zhao, H. G., Liu, C. X., Weng, W. F., 2007. Structural Reverse and Its Significance to Oil and Gas in the East and West Parts of Ordos Basin in the Neogene. Acta Petrolei Sinica, 28(6): 6–10 (in Chinese with English Abstract)
    Zheng, D. W., Zhang, P. Z., Wan, J. L., et al., 2006. Rapid Exhumation at ~8 Ma on the Liupan Shan Thrust Fault from Apatite Fission-Track Thermochronology: Implications for Growth of the Northeastern Tibetan Plateau Margin. Earth and Planetary Science Letters, 248(1): 198–208 (in Chinese with English Abstract)
    Zheng, W. J., Yuan, D. Y., Zhang, P. Z., et al., 2016. Tectonic Geometry and Kinematic Dissipation of the ACTIVE Faults in the Northeastern Tibetan Plateau and Their Implications for Understanding Northeastward Growth of the Plateau. Quaternary Sciences, 36(4): 775–788
    Zou, C. N., 2017. Unconventional Petroleum Geology (Second Edition). Elsevier, Amsterdam. 257–259. https://doi.org/10.1016/b978-0-12-812234-1.18001-x
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